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trezor-firmware/storage/tests/c0/storage.c

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/*
* This file is part of the Trezor project, https://trezor.io/
*
* Copyright (c) SatoshiLabs
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <string.h>
#include "common.h"
#include "norcow.h"
#include "storage.h"
// Norcow storage key of configured PIN.
#define PIN_KEY 0x0000
// Maximum PIN length.
#define PIN_MAXLEN 32
// Byte-length of flash section containing fail counters.
#define PIN_FAIL_KEY 0x0001
#define PIN_FAIL_SECTOR_SIZE 32
// Maximum number of failed unlock attempts.
#define PIN_MAX_TRIES 15
static secbool initialized = secfalse;
static secbool unlocked = secfalse;
static PIN_UI_WAIT_CALLBACK ui_callback = NULL;
void storage_init(PIN_UI_WAIT_CALLBACK callback) {
initialized = secfalse;
unlocked = secfalse;
norcow_init();
initialized = sectrue;
ui_callback = callback;
}
static secbool pin_fails_reset(uint16_t ofs) {
return norcow_update(PIN_FAIL_KEY, ofs, 0);
}
static secbool pin_fails_increase(const uint32_t *ptr, uint16_t ofs) {
uint32_t ctr = *ptr;
ctr = ctr << 1;
if (sectrue != norcow_update(PIN_FAIL_KEY, ofs, ctr)) {
return secfalse;
}
uint32_t check = *ptr;
if (ctr != check) {
return secfalse;
}
return sectrue;
}
static void pin_fails_check_max(uint32_t ctr) {
if (~ctr >= (1 << PIN_MAX_TRIES)) {
norcow_wipe();
ensure(secfalse, "pin_fails_check_max");
}
}
static secbool pin_cmp(const uint32_t pin) {
const void *spin = NULL;
uint16_t spinlen = 0;
norcow_get(PIN_KEY, &spin, &spinlen);
if (NULL != spin && spinlen == sizeof(uint32_t)) {
return sectrue * (pin == *(const uint32_t *)spin);
} else {
return sectrue * (1 == pin);
}
}
static secbool pin_get_fails(const uint32_t **pinfail, uint32_t *pofs) {
const void *vpinfail;
uint16_t pinfaillen;
unsigned int ofs;
// The PIN_FAIL_KEY points to an area of words, initialized to
// 0xffffffff (meaning no pin failures). The first non-zero word
// in this area is the current pin failure counter. If PIN_FAIL_KEY
// has no configuration or is empty, the pin failure counter is 0.
// We rely on the fact that flash allows to clear bits and we clear one
// bit to indicate pin failure. On success, the word is set to 0,
// indicating that the next word is the pin failure counter.
// Find the current pin failure counter
if (secfalse != norcow_get(PIN_FAIL_KEY, &vpinfail, &pinfaillen)) {
*pinfail = vpinfail;
for (ofs = 0; ofs < pinfaillen / sizeof(uint32_t); ofs++) {
if (((const uint32_t *)vpinfail)[ofs]) {
*pinfail = vpinfail;
*pofs = ofs;
return sectrue;
}
}
}
// No pin failure section, or all entries used -> create a new one.
uint32_t pinarea[PIN_FAIL_SECTOR_SIZE];
memset(pinarea, 0xff, sizeof(pinarea));
if (sectrue != norcow_set(PIN_FAIL_KEY, pinarea, sizeof(pinarea))) {
return secfalse;
}
if (sectrue != norcow_get(PIN_FAIL_KEY, &vpinfail, &pinfaillen)) {
return secfalse;
}
*pinfail = vpinfail;
*pofs = 0;
return sectrue;
}
secbool storage_check_pin(const uint32_t pin) {
const uint32_t *pinfail = NULL;
uint32_t ofs;
uint32_t ctr;
// Get the pin failure counter
if (pin_get_fails(&pinfail, &ofs) != sectrue) {
return secfalse;
}
// Read current failure counter
ctr = pinfail[ofs];
// Wipe storage if too many failures
pin_fails_check_max(ctr);
// Sleep for ~ctr seconds before checking the PIN.
uint32_t progress;
for (uint32_t wait = ~ctr; wait > 0; wait--) {
for (int i = 0; i < 10; i++) {
if (ui_callback) {
if ((~ctr) > 1000000) { // precise enough
progress = (~ctr - wait) / ((~ctr) / 1000);
} else {
progress = ((~ctr - wait) * 10 + i) * 100 / (~ctr);
}
ui_callback(wait, progress);
}
hal_delay(100);
}
}
// Show last frame if we were waiting
if ((~ctr > 0) && ui_callback) {
ui_callback(0, 1000);
}
// First, we increase PIN fail counter in storage, even before checking the
// PIN. If the PIN is correct, we reset the counter afterwards. If not, we
// check if this is the last allowed attempt.
if (sectrue != pin_fails_increase(pinfail + ofs, ofs * sizeof(uint32_t))) {
return secfalse;
}
if (sectrue != pin_cmp(pin)) {
// Wipe storage if too many failures
pin_fails_check_max(ctr << 1);
return secfalse;
}
// Finally set the counter to 0 to indicate success.
return pin_fails_reset(ofs * sizeof(uint32_t));
}
secbool storage_unlock(const uint32_t pin) {
unlocked = secfalse;
if (sectrue == initialized && sectrue == storage_check_pin(pin)) {
unlocked = sectrue;
}
return unlocked;
}
secbool storage_get(const uint16_t key, const void **val, uint16_t *len) {
const uint8_t app = key >> 8;
// APP == 0 is reserved for PIN related values
if (sectrue != initialized || app == 0) {
return secfalse;
}
// top bit of APP set indicates the value can be read from unlocked device
if (sectrue != unlocked && ((app & 0x80) == 0)) {
return secfalse;
}
return norcow_get(key, val, len);
}
secbool storage_set(const uint16_t key, const void *val, uint16_t len) {
const uint8_t app = key >> 8;
// APP == 0 is reserved for PIN related values
if (sectrue != initialized || sectrue != unlocked || app == 0) {
return secfalse;
}
return norcow_set(key, val, len);
}
secbool storage_has_pin(void) {
if (sectrue != initialized) {
return secfalse;
}
return sectrue == pin_cmp(1) ? secfalse : sectrue;
}
secbool storage_change_pin(const uint32_t oldpin, const uint32_t newpin) {
if (sectrue != initialized || sectrue != unlocked) {
return secfalse;
}
if (sectrue != storage_check_pin(oldpin)) {
return secfalse;
}
return norcow_set(PIN_KEY, &newpin, sizeof(uint32_t));
}
void storage_wipe(void) { norcow_wipe(); }